In this paper, the simulation of three monopole with G type structure is proposed consisting of one closed rectangular wire loop and one open rectangular wire loop with maximum horizontal and vertical dimensions approximately of L1 = L2 = L3 =.25λ, h=202λ, w = .1834λ, l =.3487λ and having wire radius of 2mm. Each of the structure is analyzed on perfect ground and on CUBESAT and their various performance parameters such as gain, bandwidth and input impedance is determined. The three structures were designed at centre frequencies of 150MHz, 180MHz and 330MHz. These have the bandwidth of 6%, 32.77% and 41.8%, gain of 3.757dB, 2.691dB and 2.774dB, having input impedance of 234.2+31.886i,55.905-10.93i and 54.633+7.39i at the resonant frequencies respectively when mounted on a CUBESAT. The software used to analyze and simulate the proposed antenna is Numerical Electromagnetic Code (NEC) -Win PRO. The numerical results of the designed wideband antenna are presented and analyzed.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    Analysis of G-shape antennas mounted on a CUBESAT


    Contributors:
    Yousuf, H. J. (author) / Haider, M. M. (author) / Siddique, M.K. (author) / Amin, M. (author)


    Publication date :

    2008-11-01


    Size :

    221599 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



    The e-st@r CubeSat: Antennas system

    Fanchini, G. / Gagliostro, D. | Elsevier | 2011


    The e-st@r CubeSat: Antennas system

    Fanchini, G. | Online Contents | 2011


    Improving cubesat downlink capacity with active phased array antennas

    Klein, Jonathan / Hawkins, Joe / Thorsen, Denise | IEEE | 2014


    Deployable CubeSat Antennas for Deep Space and Earth Science Missions

    Cwik, Tom / Gonzalez, David / Decrossas, Emmanuel et al. | NTRS | 2019


    Deployable CubeSat Antennas for Deep Space and Earth Science Missions

    Cwik, Tom / Gonzalez, David / Decrossas, Emmanuel et al. | NTRS | 2019